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zst be roper 4643 oven in an ied is safety of be I soils a. of the 's the 1ppro- plica- 0 ained -game Soil and Nat& Oven ipeci- Rock Irced- itions mass terial, I as a El i 4,1 A test specimen is dried in an oven to a constant mass. The loss of mass due to drying is considered to be water. The water content is calculated using the mass of water and the mass of the dry specimen. 5.1 For many materials, the water content is one of the ost significant index properties used in establishing a rrelation between soil behavior and its properties. 5.2 The water content of a material is used in expressing phase relationships of air, water, and solids in a given fume of material. 53 In fine-grained (cohesive) soils, the consistency of a ten soil type depends on its water content. The water latent of a soil, along with its liquid and plastic limits as termined by 'rest Method D 4318, is used to express its ative consistency or liquidity index. 0.1 Drying Uven, hermostatically-controlled, preferably the forced -draft pe, meeting the requirements of Speci- ationE 4 a capable of maintaining a uniform temper- ure o 10 5°C throughout the drying chamber. W 6,2 Balances --All balances must meet the requirements Specification D 4753 and this Section. A Class GPI dance of 0.01g readability is required for specimens having mass of up to 200 g (excluding mass of specimen con- iner) and a Class GP2 balance of 0.1g readability is quired for specimens having a mass over 200 g. 6.3 Specimen Containers—Suitable containers made of aterial resistant to corrosion and change in mass upon pealed heating, cooling, exposure to materials of varying 3, and cleaning, Containers with close -fitting lids shall be ed for testing specimens having a mass of less than about 0 g; while for specimens having a mass greater than about C g, containers without lids may be used. One container is :eded for each water content determination. NoTF 2—The purpose of dose -fitting lids is to prevent loss of )isture from specimens before initial mass determination and to -vent absorption of moisture from the atmosphere following drying d before final mass determination. 6.4 Desiccator—A desiccator cabinet or large desiccator r of suitable size containing silica gel or anhydrous calcium iosphate. It is preferable to use a desiccant which changes -lor to indicate it needs reconstitution. See Section 10.5. NoTF 3—Anhydrous calcium sulfate is sold under the trade name 6.5 Container Handling Apparatus, gloves, tongs, or suit - le holder for moving and handling hot containers after Miscellaneous, knives, spatulas, sample splitters, etc, as required. quartering Samples 1.1 Samples shall be preserved and transported in accor- ice with Practice 4220 Groups B, C, or D soils. Keep the aples that are stored prior to testing in noncorrodible fight containers at a temperature between approximately 3 J 30*C and in an area that prevents direct contact with M sunlight. Disturbed samples in jars or other containers shall be stored in such a way as to prevent or minimize moisture condensation on the insides of the containers. 7.2 The water content determination should be done as soon as practicable after sampling, especially if potentially corrodible containers (such as thin -wailed steel tubes, paint cans, etc.) or plastic sample bags are used. 8. Test Specimen 8.1 For water contents being determined in conjunction with another ASTM method, the specimen mass require- ment stated in that method shall be used if one is provided. If no minimum specimen mass is provided in that method then the values given before shall apply. 8.2 The minimum mass of moist material selected to be representative of the total sample, if the total sample is not tested by this method, shall be in accordance with the following: Recommended. Recommended minimum mass of minimum mass of moist test spec- moist test spec - Maximum particle imen for water imen for water size (100 % Standard Sieve content reported content reported ping) Size to ±0.1 °% to ±1 °% 2 mm or less No. 10 20 g 20 g* 4.75 mm No. 4 100 g 20 g• 9.5 nim Ys -in. 500 g 50 g 19.0 mm '/4411. 2.5 kg 250 g 37.5 mm 11/2 in. 10 kg 1 kg 75.0 min 3 -in. 50 kg 5 kg No*rP—*To be representative not less than 20 g shall be used. 8.2.1 If the total sample is used it does not have to meet the minimum mass requirements provided in the table above. The report shall indicate that the entire sample was used. 8.3 Using a test specimen smaller than the minimum indicated in 8.2 requires discretion, though it may be adequate for the purposes of the test. Any specimen used not meeting these requirements shall be noted in the report of results. 8.4 When working with a small (less than 2008) specimen containing a relatively large gravel particle, it is appropriate not to include this particle in the test specimen. However, any discarded material shall be described and noted in the report of the results. 8.5 For those samples consisting entirely of intact rock, the minimum specimen mass shall be 500 g. Representative portions of the sample may be broken into smaller particles, depending on the sample's size, the container and balance being used and to facilitate drying to constant mass, see Section 10.4. 9. Test Specimen Selection 9.1 When the test specimen is a portion of a larger amount of material, the specimen must be selected to be representative of the water condition of the entire amount of material. The manner in which the test specimen is selected depends on the purpose and application of the test, type of material being tested, the water condition, and the type of sample (from another test, bag, block, and the likes.) 9.2 For disturbed samples such as trimmings, bag sam- ples, and the like, obtain the test specimen by one of the